Telemotor.



No.89'7,907. PATENTED SEPT.- a; 1908.

L.A.LANG.

TELEMOTOR. APPLICATION FILED OCT. 10, 1907.

2 sHBETs-SHEBT'L l 7/2712 asses" PATENTED SEPT. 8, 1908.

L. A. LANG. TELEMOTOR. APPLIOATION FILED 00110, 19071 2 SHEETS-SHEET 2.

v UNITED srATEs PATENT oFFIoE.

LINCOLN A. LANG, or CLEVELAND, OHIO.

TELEMOTOR.

Specification of Letters Patent.

Iatented Sept; 8, mos.

Application flled october 10, 1907. Serial No. 398,870.

tain-new and useful Improvements in Telemotors; and I hereby declare the following to be a full, clear, and exact description of the invention, such as will enable others skilled in the art to which it pertains to make and use the same.

This invention relates to improvements in systems for. transmitting motions or impulses from one apparatus or set of apparatus to another apparatus or set of apparatus and particularly to a liquid system of the type which is employed for the purpose of controlling the operation'of a steering engine.

The object of the invention is to provide a uid system of the character lndicated 'ch will automatically com ensate for any leakage that may be producer inthe system; which will automatically stop the motion of the engine or motor as soon as the movement of the Wheel or other primary operatin means is stopped; which will maintain wit in the ipes of the system an unbroken column of iquid; which will be simple in construction, positive and accurate in operation, and capable of being readily rectified or adjusted in case of derangement.

My inventioncomprises, in a system of this character, means for imparting to the liquid in a pipe system, at a point distant fromthe apparatus which is to. be actuated, an impulse which will start the actuating apparatus and means for imparting to the liquid an im ulse, due to the movement of the actuate a paratus, without affecting the means by w oh the first-mentioned imp se was imparted.

More articularly, my invention consists i provi ing, in combination with an actuating device (as a motor on engine), a driven device or apparatus receiving its motion therefrom, a liquid pi e system, means (which 'may' be terme the controlling means) arranged to be actuated by the liquid in the pipe system, acting under-im: pulses impartedthereto so as to control the operation of the (whichmay designed to be actuated or operated bya force applied outside of the pipe system for have invented cerctuating device, means be tern ed the primary means) imparting an im ulse to the liquid in said system which w1ll operate the controlling means so as to start said actuating device, and means (which may be termed the sec,- ondary means) designed to be actuated by the driven device for imparting to the fluid an impulse which will operate the controlling means wlthont affecting the primary means,

device has completed the reguired movement, which movement is pre etermined or governed by the. impulse imparted to the iquid by the primary means.

In the embodiment of my invention illustrated in the drawings, there is disclosed'the combination of a steering engine, a rudderoperating shaftarranged to be 0 by and a 1i uid pipe system. he pipe system is divided by means of-valves lntotwo branches which, under normal conditions, have no intercommunication; but each branch is adapted to communicate under certain conditions with a common reservoir. Each branch of the pipe system is provided with three enlargements in the form of cylinderspwhich may be termed the primary cylinder the secondary'cylinder and the controlling cylinder, the whole pipe system having therein a pair of ders, a pair of secondary cylin ers, and a pair of. controlling cylinders. In each c linder there is arran e a plunger, and thep ungers in each pair 0 cylinders are operatively conthat the movement of one plunger will produce a movement, similar in extent butopposite in character, of the plunger connected lilGTutO. ders are operatively nal actuatlng device, wheel, so that by turnin the wheel in either direction one plunger wi 1 be pressed into its cylinder and the other-will be correspondingly withdrawn. The plungers'in the secondary c linders are operatively connected with the shaft which turns the rudder and thus with the rudder, so that "whichever wa the rudder may be turned, one plun er wi lbe forced into its cylinder and the ot be-forced outwardly with respect to its cylinder. The plungers in the-controlling cylinders are operativelyoconnected with the steam valve of the engine (or other operating or actuating device) so that-as one plunger connecte to the exter in this case the steering The plungers'in the (primary cylin-.

er plunger -villso as to stop the driving as soon as the driven eratedthererimary cylinnected together and the arrangement is such between both sides or branches of the system and the tank may be established. TAt the lowest point of the system and at the point most remote from the primary cylinders, there is provided a tank'c'ontaining liquid,

said tank communicating with both sides.or branches of the system, there being check valves interposed between said tank and the 1 two sides or branches of the system. The

secondary cylinders are located adjacent to the last-mentioned tank and communicates with the opposite sides or branches of the system at points beyond the check valves.

' ment of externally 'which both branches of the tank 19-. Ordinarily Referring to the drawings, Figure 1 represents a top plan view showing my system as. applied to a steering wheel and a starting engine ofany. approved construction, the controlling and secondary cylinders bein shown in section. Fig. 2 represents an en elevation of the a paratus shown inFig. 1, a portion of the ecks and the primary cylinders being shown in section.

Describing the parts by reference characters, 1 represents'the external actuating or o crating device, in this case the steering wieel. The wheel is provided on its axle with a spur gear'2 mesh ng with racks 3 and 4 arranged on op osite sides thereof, said racks being carried y" plungers 5 and 6 respectivel The lower ends of these plungers are fitte within cylinders 7 and 8 respectively. The plunger-s are preferably of uniform diameter, enabling them to be fitted liquidtight into their cylinders with the employ- ,l'ocated packing glands 9 and. 10. I 11 denotes the deck of which cylinders 7 and From the bottoms of these cylinders thereextend. ipes 12 and 13 communicating respective y with the opposite sides or branches a and b of the pi e system.

14 denotes a s ort pipe connecting-the opposite branches of the "systeni and preferably fitted to the tees 15 and 16 by means of which the pipes 12 and 13 are connected to the system.

17 denotes a three-way'valve by means of I pipe system may be placed in communication with each other and with the pipe 18 leadin to the elevated this va ve Will be closed the pilot-house on cylinders a of the system and the latter 8 are supported.

. tant in insuring sense? and there will be no communication of the opposite branches of the system with each other or with the tank 19. Y

20 denotes the steering engine by means of which the rudder, or other device, is operated. This engine is. provided with a valve chest 21 which will be provided with any preferred form of steam valve having an operating lever 22 for opening, closing, and reversing the valve. The end of thislever is suitably connected to the middle portion of a double-acting plunger 23, the opposite ends of which are fitted within the controlling 24, respectively, the former cylinder being in-communication with branch cylinder being 1n communication with branch I). The opposite ends of the plunger 23, are fitted into the controlling cylinders 24 and 25 in the same manner as plungers 5' and 6 are fitted into their cylinders.

The engine 20 is connected with the rudderoperating shaft 26, one end of said shaft ,be-

ing provided with a worm 27 meshing with a segment 28 carried by shaft 29 which has rigid therewith an arm 30 operatively connected to the middle portion of a double acting plunger 31, the opposite ends of which are fitted within the secondary cylinders 32 and 33 in the same manner as ends of plunger 23 are fitted into cylinders 24 and 25. The secondary cylinders are connected with the branches 0. and b respectively of the pipe systemby means of pipe connections 34 and 35 respectively. 7 v

Adjacent to the points of connection of the cylinders 32 and 33 with the system there is located a pressure tank 36 within which there is stored liquid. This tank is connected with the opposite branches of the system by means of pipes 37 and 38, each having therein a check valve 39, .40 respectively, said cheek valves being arranged to permit the flow of liquid from the tank into the branches of the system under conditions to be described hereinafter, but to prevent the flow-of' 'li uid from said branches into the tank.

. t will be noted, particularly from an inspection' of Fig. 2, that the pipes 37 and 38 are the lowest part of the system and that the tank 36 and said pipes are remote from the primary cylinders. This location is importhe automatic operation of liquidto either side of the v the tank to supply system, as occasion may require, in order to restore the pressure therein.

With theparts constructed and arranged as described, the operation will be as fol lows :When wheel 1 is rotated in either direction, one of the plungers 5, 6 will be depressed and the other elevated .Assume that the wheel be turned to the left, that is, contrary to "the direction of rotation of the hands of a. clock. Plunger 5 will be depressed within its cylinder and plunger 6 will position.

, always been started in either direction,

be corres ondingly elevated. The depression of p unger 5 causes pressureto be ex-' erted upon the liquid contained within the branch 11 of the system; The liquid, thus subjected to pressure, moves. plunger 23 to the right carryin with it lever 22 which is connected .with t e steam valve and opens the said valve. This'admits steam to the engine 20 and causes the shaft 26 to be correspondingly rotated. The connections be-. tween the enginev and shaft and between the shaft and the plunger 31 are such that, when plunger 23 is moved to the right, )lunger 31 1 will also be moved to the right by t e arm 30.

During the rotation of shaft 26, lunger 31 continues to travel to the right, orcing theliquid from the branch b of the system nto the primary cylinder 8. As long as the wheel 1 is being'turned in the direction set forth,

the liquid in branch I) will siinplyrise within primary cylinder 8. As soon as the rotation of the wheel ,is stopped, however, there will be no more s ace provided'in cylinder 8 for the liquid which is being forced thereinto by plunger 31 and the liquid will then exert a pressure within the controlling cylinder 25 which will move and thereby shift .the steam-valve to closed In likemanner, if plunger 6 be depressed, by rotating the wheel 1 in 'a direction. the reverse of that above described, plunger 23 will be moved to the left and the steam valve will be opened to adi-nitthe steam to the reverse side of the piston or pistons in the engine 20. This will cause shaft 26 to be rotated in a reverse direction, forcing plunger 31- to the left.' When the movement of the wheel is stopped, the lunger 23 will be carried to the position s ownin the drawings and the rotation of shaft 26 will be automatically stopped through the positive re-actory circulationset up within branch a by plunger 31. From the construction described, it follows that a iven displacement of thewheel I'nust followed by a proportional number of turns of the power or engine-shaft and a proportional movement of the rudder; hence the position of the steering wheel is always an index of the position of the engine and of the rudder (or whatever other device the engine may actuate), there being no necessity or turning the steering wheel" to a given pointin order to cause the stoppage of the engine.

if t e rotation of the wheel be continued, the'engine will continue to operate steadily since, underrotation of the wheel is continued. When the plunger 23 to the left' Furthermore, after thee 'ine has stantly falls, particu this rotation is discontinued, the circulation from plunger 31 into the correspondin primary c linder being blocked, the liquid will instant y exert'its pressure uponthe plunger 23 to close the valve.

' A furtherimportant advantage in my invention resides in its ada matically maintain the pipe system full of liquid. In ordinary practice, the rotation of the steering wheel in either direction sets up an increased pressure in one branch of the system, such increased pressure being due to the'resjstance offered by the pipe, the plunger 23 and the valve-operating lever 22, with a corresponding diminution of pressure in the other branch of the system. Under these conditions, the tendency to leakage will be greatest in theside. or branch wherein the highest pressure exists. With the arrangement and location of feed-tanks with )tability to autowhich I am familiar, any replacementof liquid occurs within the branch in which: the

lowest pressure exists, with the result that thereis liability to derange the system by the presence 0 more liquid in one branch than in the other thereo The location of the tank 36 near the secondary cylinders 32,

33 and remote from the primary cylinders 7 and 8, together with the check valves 38 and 39 which permit liquid to flow only from the tank into' the branches of the system, not onl prevents this undesirable action but maintains a proper "branches of the system by sup lying liquid to the side wherein the lea age occurs. Owing to the movement of the plunger- 31 toward the low-pressure branch of the. system and the location of such plunger and the secondary cylinders nearthe tank 36, as well as the low level at which said tank and cylin balance between the two 7 ders arelocated, there will be a tendency to a reduction of pressure on the high pressure side of the system adjacent to the tank 36.

When this tendency to low pressure-is in.-

creased by leakage, the higher pressure with in the tank 36 will cause the liquid to flow therefrom through the appropriate check valve into the high pressure branch of the system and automatically replace the'amount lost by leakage in the leakage has easily understood if we suppose that the movement of the steering wheel has run-up the pressure in branch a to say. 50 pounds and has reduced the pressure in branch b to at or near the pressure of the atmosphere. Suppose that a quantity of liquid has leaked out of branch (L, owing to the temporarily increased pressure therein'. As soon as plunger 31 begins to move, 'due to the rotation of the engine shaft, the pressure in branch a inlarly in the vicinity of cylinder 32, to or nearly equal to the pressure of the atmosphere branch wherein such occurred. This action will be I while the. pressure in branch 6 at or near cylinder increased,

system.

- tem an impu se, which ---means to start the means for imparting to the liquid in the the the liquid to start the actuating &

say to 50 pounds. Under these conditions, an additional supply of liquid will flow into branch a through the decreased pressure therein adjacent to plunger 31 and the pumping action of plunger 31,011 said branch.

When the apparatus has been out of operation for some time, a considerable quantity of liquid may have escaped from the system through leakage, thereby rendering it inoper To avoid this contingency, the threeway valve v17 may be opened when the system is out of operation, thereby placing tank 19in communication with both sides of the The tank rovides a vent wherein to any air which may e within the system may escape and keeps the pipes and system full of liquid and ready for mstant use upon merely- This valve may also sary to change therelationship between the steering wheel and the engine.

The tank 36 may be a pressure tank, but it will be unnecessary for most of the pur poses of my invention, to maintain therein a pressure above that of the atmosphere, as the'pu'mping action of the plunger '31, with the loss of pressure due to leakage, will cause the liquid to flow from said tank into the appropriate side of the system.

What I claim is:

1. In a system of the character described,

the combination, with anactuating deviceand a device driven or actuated thereby, of a liquid-holding pipe system, controlling means for said ac tuatlng device arranged to be acted upon by the liquid in said system, means for imparting to the liquid in the system an impu se which will operate the controlling means to start the actuating device, and means for im artin to the liquid in the systrolling means to-stop the actuating device, substantially as specified.

2. In a system of the character described, the combination, with an actuating device and a device driven or actuated thereby, of a liquid-holding pipe system, controlling means for said actuat lngdevice arranged to be acted upon by the liquid in said system, means for 1m artmg to the liquid in said system an impu se WhlCh will operate the controlling actuating device, and

system an impulse which Wlll operate the controlling means to stop the actuating device without affecting the means by which primary impulse has been imparted to I -device, substantially as specified. 1

' 3. In a system of the character described, the combination, with an actuating device and a device driven oractuated thereby, ofa liquid-containing pipe system, controlling means for said actuating device arranged to be acted upon by the liquid in said system,

will operate the con to be 0 erated thereby,

actuating device, substantially as specified 4; In a system of the character set forth, the combination, with an actuating device and a device driven or actuated thereb of'a liquid-containing pipe system, controlling means for said actuating devicearranged to beacted upon by the liquid in' the system,

means for imparting to' the liquid in said system an impulse which-willgoperate the controllihgmeahs to start the actuating demeans, operative by the movement vice,:and of the driven device, for imparting to the liquid an impulse which will operate the controlling means to stop the actuating device without affecting the meanswhich imparts the first-mentioned impulse to the actuating device, substantially as specified.

5. In an apparatus ot 'the character de-- scribed, the combination, with an actuating device and a device driven thereby, of a liquid-holding pipe system comprising two normally non-communicating branches, controlling means communicating with both of sai branches and adapted to operate said actuating device, means for simultaneously applying pressure to one branch of the system and relieving pressure in the opposite branch, thereby moving said controlling means, and means, communicating with both branches of said system and operated by said driven device, for the pressures in the branches of substantially as specified. I

6. In an apparatus of the character depipe system comprising normally llOIl-COIII- municatin branches, a driving or actuating device, a (riven device, plunger mechanism havin opposite sides thereof connected with both ranches and serving to a control said actuating device, plunger mechanism located adjacent to the driven member and arranged means for'imparting to the iquid in one branch of the system an impulse tending to force the firstmentioned plunger mechanism in one dlrectlon, and

connections whereby the operation of the driven device moves its plunger mechanism the same direction as-the former mechanism, substantially as specified.

' 7. In a device of the character set forth, the combination of a liquid-holding pipe system comprising two normally non-communieating branches, an engine, a valve-operating simultaneously reversing thesystem,

scribed, the combination of a liquid-holding device therefor, an engine shaft driven bysaid eng ne; a pair of respectively with system, connected cylinders communicating plungers in said cylinders,

opposite branches of said stantially as specified.

8. In an apparatus of the character set forth, the combination of a wheel, a pair of vertically extending cylinders, plungers in the said cylinders and each operatively connected with said wheel and arranged to be moved in reverse directions by the rotation thereof, a liquid-holding pipe system com rising two normallv non-communicating branches, each branclf being connected with one of the aforesaid cylinders, controlling cylinders connected with opposite branches of said cylinder, a plunger for each of said cylinders, an engine, a valve-operating device therefor connected to the last-mentioned plungers, a device driven or actuated by said engine, a pair ders connected respectively with opposite branches of said pipe system, a plunger common to the last-mentioned cylinders, and an operative connection between said plungers of secondary cylinand said driven device, substantially as specified.

9. In an apparatus of the character set forth, the combination, with an actuating device and a device driven or actuated thereby, of a liquid-holding pipe system, controlling ling means for said actuating device arranged for imparting to the li means for said actuating device arranged to be acted upon by the liquid in said pipe system, means for imparting to the liquid an impulse which will operate the controlling means to start the actuating device, means for imparting to the liquid an impulse which will oper: ate the controlling means to suspend the operation of such actuating device, and means for automatically replacing liquid lost from the system, substantially as specified.

10, In an apparatus of the character set forth, the combination, with an actuating device and a device driven or actuated thereof a liquid-holding pipe system, controlto be acted upon by the liquid in said pipe system, means for imparting to the liquid an impulse which will operate the controlling, means to start the actuating device, means uid an impulse which will operate the contro ing means to suspend the operation of'such actuating device, and means, located adjacent to the last-men'- -t ioned means, for automatically replacing liquid lost from the system,

substantially as specified. I

11. In an apparatus .of the character set ling cylinders so that the movement of a adapted to v with a suitable "cylinder arranged forth, the combination, with an actuating device and a device driven or actuated thereby, of a liquid-containing pipe system comprising two normally noncommunicating rariches, an elevated tank having a pipe connected with said branches and valve mechanism for placing said tank into conimunica-- tion with both branches of said system, means located adjacent to said tank for imparting impulses to the liquid contained in either branch of said system, a controlling device be operated by such impulses for operating the actuating device reversely, and

means operatedby the driven device for creating an impulse in the svstem to move the controlling device in a reverse direction from that given it by the first-mentioned means, substantially as specified.

12. In a device of the character indicated, the combination, with an engine and a device arranged tobe operated thereby, of 'a fluid-holding pipe system, controlling means arranged to be actuated by the liquid in said pipe system acting under impulses imparted thereto, primary means,.designed to be actuated by a force outside of said pipe system, for imparting an impulse to the fluid in said pipe system'which Will operate the controlling means to start said engine, and secondary means, arranged to be actuated by said device, for imparting to the liquid in the pipe system an impulse which will operate t controlling means to stop the said device without affecting the primary means as soon as the said device has completed the required movement, substantially as specified.

13. In a device of the character indicated, the combination, with an en ine provided controlling va ve and a de-' vice arranged to be operated by said engine, of a liquid-holdingpipe system, primary, secondary and controlling cylinders arranged in open communication with said pipe system, plungers arranged in said cylinders, means which can only be operated by a force outside of said system arranged to actuate the plunger in the primary cylinder, means for connecting the plunger in the secondary cylinder with said device, and means for con necting the plunger in the controlling cylinder with the valve'niechanisin of said engine,-

substantially as specified.

14,. In a device of the character indicated,

the combinati'on, with an engine and a shaft arranged to be operated thereby, of a liquid-' holding r ipe system consisting of two branches which, under normal conditions, have no intercommunication, a primary cy inder, a secondary cylinder and a controlling in communication with each branch, a plunger arranged ineach cylinder, means for opcratively connecting the plungers in the respective pairs of primary cylinders, secondary cylinders and controlsure in the pipe connected to plunger will cause a movement of the plunger connected to it which will be similar in extent but opposite in character, means, which can only be operated by a force outside of said system, arranged to actuate the plungers in the primary cylinders, means for connecting the plungers in the secondary cylinders with said shaft, and means for connecting the plungers in the controlling cylinders with the valve mechanism of said engine, substantially asspecified.

15. In a device of the character indicated, the combination, with an actuating device or actuated thereby, of a and a device driven I liquid-holding pipe system for controlling the operation thereof comprising one or more primary cylinders with plungers working therein mcans for actuating said lungers, one or ,more secondary cylinders with plungers working therein, means for actuating said plungers, one'or more controlling cylinders with plungers working therein, and pipes connecting together said primary, secondary and controlling cylinders to form a system in which pressure applied by means of the plung'ers in the primary cylinders will actuate the plungers of said controlling cylinders without affecting the plungers of the secondary cylinders, substantially as specified.

16. In a system of the character indicated, the combination, with an engine provided with a suitable controlling valve and a device arranged to be operated thereby, of a fluidholding pipe system consisting of two branches which, under normal conditions have no intercommunication, a reservoir, pipes connecting said reservoir with each of the said branches of the said pipe system, automatically operating valves arranged in the said connecting pipes and designed to open in either direction according as the pressure in the reservoir is greater or less than the pressystem, a primary cylinder, a secondary cylinder and a controlling cylinder arranged in communication with each pipe branch, a plunger arranged in each cylinder, means for operatively connecting,- the plungers in the respective pairs of primary cylinders, secondary cylinders and controlling cylinders so that the movement of a plunger will cause a movement of the plunger it which will be similar in extent but opposite in character, means which can only be operated by a force outside of said system arran ed to actuate the plungers in the primary cy inders, means for connecting the plungers in the secondary cylinders with the said device, andmeans for connecting the plungers in the controlling cylinders with the valve mechanism of said engine, substantially as specified.

17. In adevice of the character indicated, the combination, with an engine and a device arranged to be operated thereby, of a liquidholding pipe system consisting of two branches which, under the plungers in the secondary cylinders withsaid devlce, and means for connecting the plungers in the controlling cylinders with the valve mechanism of said engine, substan-.

tially as specific 18. -I the combination, with an engine and a device arranged to be'operated thereby, of a l iquidholding pipe system consisting of two normal conditions, have no intercommunication, a primary cyl inder, a secondary cylinder and a controlling cylinder arranged in communication with each pipe branchfa plunger arranged in each cylinder, means for actuating the plungers in the primary cylinders, means for connecting the plungers in the secondary cylinders with said device, means for connecting the pl ungers in the controlling cylinders with the valve mechanism of said engine meansfor establishing the equilibrium of the lluid in. said system, and means for automatically applying additional fluid thereto to take the place of the fluid lost through evaporation or other causes, substantially as specl'lied.

19. In a system-of the character indicated, the combination, with an engine and a device arranged to be operated thereby, of a liquidholding pipe system consisting of two branches which, under normal conditions, have no intercommunication, a primary cylinder, a secondary cylinder and a controlling cylinder arranged in communication. with each pipe branch, a plunger arranged in each cylinder, means for actuating the plungers in the primary cylinders,means for: connecting t e plungers in the secondary cylinders with said device, means for connecting the plunger in the controlling cylinders with thevalve l l, l

mechanism of said engine, and means for establishing the equilibrium of the fluid in said system,'substantially as specified. 20. In a system of the character indicated, the combination, with an engine rovided with a suitable controlling valve an a device arranged to be operated thereby, of a liquidholding pipe system consisting of two branches which under, normal conditions ave no intercommunication, a reservoir,

ipes connecting said reservoir with the branches of said pipe system, automatically operating valves arranged in said connecting pipes and designed to open when the pressure in the reservoir is greater than the ressure in the pipe system, a primary cylinder, a secondary cylinder and a controllingcylinder arranged in communication with each branch, at plunger arranged in each cylinder, means cylinder arranged in communication with n a system of the character indicated,

i and means for op the combination,

' means for operating mders, means for connecting the operating valves arranged in said connecting fp1pes and designed to open for automatically eplacing liquid lost from said system, a tank adaptedto communicate with the highest part of the system, and a valve for placing said system in communication with said system,

the plungers in the primary cyl-; plungers in the said device,

the secondary cylinders to I connecting the eratively plungers in the controlling cylinderswith the substantially as specicontrolling valve of the engine, substantially -fied. I 1 r K as specified. '23. In a systemof the character set forth,

the combination of a liquid-containing plpe system, primary means for imparting impulses to said system at the highest point of the system, an actuating device adapted to be operated by said impulses, an actuated or fdriven deviceoperative by the former device, and means, located in the lowest portion of i said system, for automatically sup lyingliquid thereto, vsubstantially -assp'ec' ed. v F- 21. In a. system of the characterindicated, with an engine provided controllin valve and a shaft arranged to be operated t ereby, of a liquidholding pipe system consisting of two branches which under normal conditions have no' intercommunication, a reservoir,

ipes connecting said reservoir with said ranches of said pipe system, automatically with a suitable the combination of a liquid-containing pipe system, a tank having a connection therewith at the highest point thereof, a valve adapted to lace said tank into communication with said system, primary means for imparting impulses to said system, an actuat ing device adapted to be operated by said impulses, an actuated or driven device operative by the former device, and k lowhen the pressure in the reservoir is greater than the pressure in the pipe system, a primary cylinder, a secondary cylinder and a controlling cylinder arranged in communication with each brancli, a plunger arranged in each cylinder, means for operating the plungers in the primary cylinders, means for connecting the plungers inthe secondary cylindersto the shaft and for operatively connecting the plungers 1n the controlling cylinders with the cona tan cated in and communicating with the lowest ortion of said system for automatictrolling valve of the engine, substantially as ally supplying liquid thereto, substantially specified. 1 as spec fled. x

22. In a system of the character set forth, In testimony whereof, I sign the foregoing the combination, with an actuating device anda device driven or actuated thereby, of a liquidcontan'nng p pe system, means for 1mparting to the liquid in saidifsysteman impuise operate said actuating device, means specification, in the presence 0 two witnesses.

LINCOLN A. LAN G.

Witnesses: v v

Vrd'ron C. LY 'cn, N. L. MCDQN ELL.

24. In a system of the character set forth, 

